JP2003290606A - Flocculation and sedimentation apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a flocculation and sedimentation apparatus capable of being reduced in size and running cost. <P>SOLUTION: The flocculation and sedimentation apparatus is arranged in a sedimentation tank 12 in an upright state and equipped with a mixing chamber 14 into which a liquid to be treated and additives are introduced, the center shaft 30 coaxially arranged in the mixing chamber and supported in a rotatable manner, the inside baffle plate 34 attached to the outer peripheral surface of the center shaft, the outside baffle plate 36 provided to the inner peripheral surface of the mixing chamber, the distributor 40 attached to the center shaft and distributing the liquid to be treated in the mixing chamber to supply the same into the sedimentation tank and a drive device 32 for rotationally driving the center shaft. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flocculation-precipitation apparatus for clarifying a liquid to be treated by aggregating and precipitating a suspended substance in the liquid to be treated in a settling tank.

[0002]

2. Description of the Related Art A coagulating sedimentation apparatus is a kind of sedimentation separation type water treatment apparatus, in which suspended substances and the like contained in a liquid to be treated such as raw wastewater are flocculated and flocculated by an appropriate additive,
It is intended to remove suspended substances from the liquid to be treated by precipitation.

As a conventional general coagulation-sedimentation apparatus, for example, one disclosed in Japanese Patent Laid-Open No. 2001-286704 is known. In the flocculation-precipitation apparatus described in this publication, a cylindrical mixing chamber for flocculating suspended solids by adding an additive is provided in an upright state at the center of the precipitation tank. The liquid to be treated having the flocculating flocs is distributed and supplied into the settling tank by the distributor.

In the mixing chamber, there is provided a mixer device for mixing and stirring the liquid to be treated and the additive in order to promote aggregation of suspended substances and the like in the liquid to be treated. The mixer device includes a mixer cylinder arranged coaxially with the mixing chamber, a plurality of blades (also referred to as baffle plates) attached to an outer peripheral surface of the mixer cylinder, and a mixer driving device for rotationally driving the mixer cylinder. It consists of

Further, the distributor is provided at the lower end of the center shaft extending through the mixer cylinder, and is rotatably driven by a drive device separate from the drive device of the mixer device. . When the distributor is driven to rotate, the floc-containing liquid to be treated is discharged from the discharge hole of the distributor and is evenly distributed and supplied into the settling tank.

[0006]

In the conventional coagulating sedimentation apparatus as described above, since the center shaft of the distributor passes through the inside of the mixer cylinder of the mixer device, the diameter of the mixer cylinder must be reduced. There was a limit, and there was also a limit to miniaturization of the coagulation-sedimentation apparatus itself.

Further, since the mixer device and the distributor are driven independently of each other, two driving devices are required, resulting in a high running cost.

On the other hand, it may be possible to integrate the mixer cylinder and the distributor, but in such a case, it is difficult to select a speed suitable for each. For example, the rotational speed of the distributor is relatively low, but there is a problem that a sufficient stirring effect cannot be obtained even if the mixer cylinder is rotationally driven at such a low speed.

The present invention has been made in view of the above circumstances, and an object thereof is to provide a flocculation-precipitation apparatus which can be downsized and running costs can be reduced.

[0010]

In order to achieve the above-mentioned object, the present invention provides a flocculation for clarifying a liquid to be treated by sedimentation of suspended substances and flocs in the liquid to be treated in a settling tank. In the settling device, the mixing chamber is placed upright in the settling tank, into which the liquid to be treated is introduced, the center shaft coaxially arranged in the mixing chamber and rotatably supported, and the outer circumference of the center shaft. An inner baffle plate attached to the surface, a distributor fixed to the center shaft for supplying and distributing the liquid to be treated in the mixing chamber into the settling tank, and a drive device for rotationally driving the center shaft. . Further, it is preferable that the flocculation-precipitation device of the present invention further includes an outer baffle plate attached to the inner peripheral surface of the mixing chamber.

According to this construction, since one center shaft is provided with the baffle plate for stirring and mixing and the distributor, the diameter of the mixing chamber can be made small, and hence the coagulation-sedimentation apparatus can be miniaturized. Can be achieved. Further, the stirring and the distribution of the liquid to be treated by the distributor can be performed by one driving device, which saves labor. Further, when the baffle plate is provided also in the mixing chamber, a sufficient stirring / mixing effect can be obtained in cooperation with the baffle plate of the center shaft.

Further, the inventor of the present application has found that the miniaturization of the mixing chamber tends to cause bubbles in the mixing chamber. Therefore, it is preferable to further provide an antifoaming agent supplying means for supplying an antifoaming agent such as water into the mixing chamber in order to eliminate bubbles generated in the mixing chamber.

Further, in the coagulating sedimentation apparatus, it is preferable to provide a sight glass on the side wall of the sedimentation tank in order to confirm the state of the zone. However, the surface of the sight glass inside the settling tank is easily soiled. Therefore, the shape of the sight glass is made to be an elongated shape that extends in the vertical direction, and a scraper that is in contact with the inner surface of the sight glass and can be moved up and down, and one end of the scraper to enable the vertical movement of the scraper to be operated from the outside. -It is effective to provide a cord body connected to the container and the other end of which is arranged outside the settling tank.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Preferred embodiments of the flocculation-precipitation apparatus according to the present invention will be described in detail below with reference to the drawings.

FIG. 1 is a sectional view schematically showing a coagulating sedimentation apparatus according to the present invention. Coagulation sedimentation device 10 shown in FIG.
Is a settling tank 12 capable of settling and separating suspended solids and flocculated flocs from a liquid to be treated such as raw wastewater, and taking out a clarified supernatant as a treated liquid. A mixing chamber 14 for preliminarily aggregating and suspending suspended substances in a liquid. This type of coagulation-sedimentation apparatus 10 can perform so-called sludge blanket type operation or slurry circulation type operation depending on the characteristics of the liquid to be treated, such as wastewater treatment, papermaking white water recovery, DIP wastewater recovery, caustic greening. Liquid clarification,
It can be applied to various uses such as water treatment and inorganic substance precipitation washing treatment.

The settling tank 1 in the illustrated coagulating and settling apparatus 10
2 is composed of a bottom plate 16 made of steel and a side wall 18 made of steel plate. A pedestal 20 is laid across the upper edge of the side wall 18. The gantry 20 is mainly used as a work space for workers during various maintenance work. A mixing chamber 14 is arranged below the gantry 20. The mixing chamber 14 has an elongated, substantially cylindrical shape, and has a total length of about two thirds of the depth of the settling tank 12, for example. The mixing chamber 14
It is fixed to the side wall 18 of the settling tank 12 via a bracket with its central axis aligned with the central axis of the settling tank 12. As a result, the mixing chamber 14 is fixed in the settling tank 12 in an upright state, and a predetermined space (space) is formed between the lower end of the mixing chamber 14 and the bottom surface of the settling tank 12.

An inlet pipe 24 into which a liquid to be treated such as raw waste water is introduced is connected to the upper portion of the mixing chamber 14. That is, in this coagulation-sedimentation apparatus 10, the liquid to be treated is first introduced into the mixing chamber 14 via the introduction pipe 24.

Further, in the mixing chamber 14, an injection nozzle 26 for injecting various additives that aggregate suspended substances and the like in the liquid to be treated to form flocs is arranged. As the additive to be introduced into the mixing chamber 14, a polymer coagulant or the like is used, but it is needless to say that it is appropriately selected depending on the liquid to be treated and the substance contained therein.

A center shaft 30 is arranged in the mixing chamber 14. This center shaft 30
Are coaxially arranged in the mixing chamber 14, and the upper end of the is rotatably supported on the pedestal 20. Further, the center shaft 30 is rotationally driven by a driving device 32 mounted on the gantry 20 when the coagulating sedimentation device 10 is in operation.

In the present embodiment, the mixing chamber 14
Only the center shaft 30 is arranged therein, and there is no such as a mixer cylinder body in the conventional configuration. Therefore, the diameter of the mixing chamber 14 can be reduced to a desired size. Therefore, the diameter of the side wall 18 of the settling tank 12 surrounding the mixing chamber 14 can be reduced to a desired size, and the inner diameter of the side wall 18 is 3500 mm or less, which is the minimum dimension of the conventional configuration, and preferably 2500 mm or less. can do.

A plurality of inner baffle plates (moving blades) 34 are fixed to the outer peripheral surface of the center shaft 30. Also,
A plurality of outer baffle plates (stator vanes) 36 are also fixed to the inner peripheral surface of the mixing chamber 14. As a result, when the center shaft 30 is rotationally driven, the liquid to be treated in the mixing chamber 14 is efficiently stirred and mixed with the additive. The inclination directions of the baffle plates 34, 36 are appropriately determined so that a desired stirring / mixing effect can be obtained.

Further, the lower portion of the center shaft 30 extends below the lower end of the mixing chamber 14, and the lower end thereof reaches a sludge extracting recess 38 provided in the central portion of the bottom plate 16 and is disposed in the recess 38. It is rotatably supported by a bearing.

The lower part of the center shaft 30
A distributor 40 is fixed to a portion immediately below the lower end of the mixing chamber 14. The distributor 40 is basically a cup-shaped rotary support 42 which is fixed coaxially to the center shaft 30 and is arranged so as to close the lower end of the mixing chamber 14, and a rotary support 4.
2 and a plurality of discharge pipes 44 that communicate with the inside of the rotary support 42 and horizontally extend radially outward from the outer peripheral surface of the rotary support 42. Each discharge pipe 44 has a plurality of discharge holes formed in a line along the longitudinal direction thereof. Coagulation sedimentation device 10
During operation of the distributor 40, the distributor 40 drives the drive device 32.
Is rotated together with the center shaft 30, and the liquid to be treated containing agglomerated flocs in the mixing chamber 14 is discharged from the discharge hole of the discharge pipe 44 into the sedimentation tank 12 while being drawn in a circle, and distributed.

A rake 46 that rotates together with the distributor 40 is attached to the center shaft 30 below the distributor 40. Rake 46
Is for scraping sludge formed by the flocculation flocs in the liquid to be treated, which is discharged from the discharge pipe 44, into the sludge withdrawing recess 38 at the center of the tank bottom plate 16. As a result, a concentrated sludge layer is formed in the region below the distributor 40 in the settling tank 12. Sludge removal recess 3
The sludge collected in 8 is discharged out of the system through the sludge drawing pipe 48. Reference numeral 50 is a scraper for scraping off the sludge attached to the inner surface of the recess 38.

Further, a defoaming agent supply pipe (defoaming agent supplying means) 52 is arranged above the mixing chamber 14, and its ejection port is arranged in the mixing chamber 14. The other end of the defoaming agent supply pipe 52 is connected to a defoaming agent supply source (not shown), and the defoaming agent is supplied to the defoaming agent supply pipe when bubbles are generated in the mixing chamber 14 or periodically. It is adapted to be supplied into the mixing chamber 14 through 52. Water can be used as the defoaming agent.

A vertically long rectangular opening is formed in the side wall 18 of the settling tank 12, and a sight glass 54 is attached thereto in a liquid-tight manner. The sight glass 54 is for visually observing the inside of the settling tank 12. A scraper 56 is arranged inside the precipitation tank 12 at a position adjacent to the inner surface of the sight glass 54. The scraper 56 includes a rod body 58 and a scraper bar 60 attached to the lower end of the rod body 58. The rod body 58 is guided by a guide member 62 fixed to the inner surface of the side wall 18 so as to be movable in the vertical direction.
0 can move from the lower end of the side glass 54 to the upper end in contact with the inner surface of the side glass 54.

Further, one end of a cord body 68 is connected to the upper end of the rod body 58. The string 68 extends upward inside the settling tank 12 and extends to the outside of the settling tank 12 via pulleys 69 and 70 installed on the upper edge of the side wall 18 of the settling tank 12. The portion of the string body 68 extending to the outside of the settling tank 12 extends downward along the outer surface of the side wall 18, and the other end is at the side wall 18
Is attached to a mounting member 72 provided in the lower part of the. The string 68 is in a tensioned state due to the weight of the scraper 56, and in this state, the scraper bar 60 is located at the lower end of the sight glass 54. Then, when the cord 68 outside the settling tank 12 is pulled downward, the scraper 56 moves upward and the deposits are removed from the inner surface of the sight glass 54 by the scrape para bar 60.

Next, a procedure for clarifying the liquid to be treated using the above-mentioned coagulating sedimentation apparatus 10 will be briefly described.

First, the liquid to be treated is supplied into the mixing chamber 14 from the introduction pipe 24. Mixing chamber 1
For the liquid to be treated supplied into the nozzle 4, the injection nozzle 26
Additive from any or all of the above. As a result, the effect of the additive lasts for a long time, and agglomerated flocs having a favorable sedimentation property are formed. Then, the liquid to be treated and the additive in the mixing chamber 14 are agitated by the inner baffle plate 34 which is rotated together with the center shaft 30 by the drive device 32, and further, the presence of the outer baffle plate 36 causes efficient agitation / mixing. .
Therefore, even if the rotation speed of the center shaft 30 is set to a low speed in accordance with the distributor 40, the liquid to be treated can be sufficiently stirred.

It should be noted that when the mixing chamber 14 is downsized, bubbles tend to be generated on the liquid surface in the mixing chamber 14, but since the defoaming agent can be supplied from the defoaming agent supply pipe 52 described above, Problems caused by occurrence of can be avoided in advance.

The liquid to be treated containing agglomerated flocs is supplied from the rotary support 42 of the distributor 40 arranged at the lower end of the mixing chamber 14 into the settling tank 12 through the discharge hole of the discharge pipe 44. As a result, a uniform upward flow is generated in the settling tank 12, and a good sludge blanket layer is formed above the distributor 40.

Of the flocculating flocs in the liquid to be treated,
What is settled and separated in the settling tank 12 forms a sludge layer at the bottom of the settling tank 12. On the bottom plate 16 of the settling tank 12, since the sludge is scraped by the rake 46 into the sludge drawing recess 38, the sludge layer becomes concentrated and homogeneous. Sludge is withdrawn from the sludge withdrawal recess 38 at any time.

On the other hand, fine flocs and other fine particles are also contained in the upward flow, but these fine flocs and the like are reliably captured by the large flocs of the sludge blanket layer and removed from the upward flow. In this way, flocs and other particles are sedimented and removed from the ascending flow, and an extremely clear supernatant liquid rises in the settling tank 12 to form a clear layer. Then, the supernatant liquid flows out from the outflow port 74 in the upper part of the precipitation tank 12 as a treated liquid.

The preferred embodiments of the present invention have been described above in detail, but it goes without saying that the present invention is not limited to the above embodiments.

For example, in the above embodiment, the injection nozzle 26 for injecting the additive into the mixing chamber 14 is provided.
However, the present invention can be applied to a coagulation-sedimentation apparatus that does not have such an injection nozzle.

[0036]

As described above, the coagulation-sedimentation apparatus according to the present invention can be installed in a place where there is only a small space because it can be downsized while maintaining the same performance as the conventional apparatus.

Further, in addition to the reason that the load itself received from the liquid is reduced due to the miniaturization, the distributor and the liquid to be treated can be agitated by one driving device, so that the running cost can be reduced. There is also the effect.

[Brief description of drawings]

FIG. 1 is a sectional view schematically showing an embodiment of a coagulating sedimentation apparatus according to the present invention.

[Explanation of symbols]

10 ... Coagulating sedimentation device, 12 ... Precipitation tank, 14 ... Mixing chamber, 18 ... Side wall, 30 ... Center shaft, 32 ...
Drive device, 34 ... Inner baffle plate, 36 ... Outer baffle plate, 40 ... Distributor, 42 ... Rotation support, 4
4 ... Discharge pipe, 52 ... Defoaming agent supply pipe, 54 ... Sight glass, 56 ... Scraper, 68 ... String body.

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) B01D 21/24 B01D 21/24 DG C02F 1/52 C02F 1/52

Claims (4)

[Claims] 1. A coagulation-sedimentation apparatus for clarifying a liquid to be treated by settling and separating suspended solids and flocs of flocs in the liquid to be treated in the sedimentation tank, the device being arranged upright in the sedimentation tank. A mixing chamber into which a liquid to be treated is introduced, a center shaft coaxially arranged in the mixing chamber and rotatably supported, an inner baffle plate attached to an outer peripheral surface of the center shaft, and the center shaft A flocculating and precipitating apparatus, comprising: a distributor attached to the above, and a distributor for supplying the liquid to be treated in the mixing chamber into the precipitating tank, and a drive device for rotationally driving the center shaft. 2. The flocculation-precipitation apparatus, further comprising an outer baffle plate attached to an inner peripheral surface of the mixing chamber. 3. The flocculation-precipitation apparatus according to claim 1, further comprising an antifoaming agent supplying means for supplying an antifoaming agent into the mixing chamber so as to eliminate bubbles generated in the mixing chamber. 4. A sight glass which is provided on a side wall of the sedimentation tank and which extends in a vertical direction for visually observing the inside of the sedimentation tank, and is vertically movable in contact with an inner surface of the sight glass. The scraper, and a string body having one end connected to the scraper and the other end arranged outside the sedimentation tank so that vertical movement of the scraper can be operated from the outside. The coagulating sedimentation apparatus according to any one of 3 to 3.